430. Cull-Candy SG, Marshall CG and Ogden D. (1989) Voltage-activated membrane currents in rat cerebellar granule neurones. J Physiol 414:179-99.

NeuronCompartmentPropertyConnectivityNotes
Cerebellum interneuron granule cellSomaI Potassium.Granule cells that lack GABAA receptors (in somatic location? ) express the two-pore-domain K+ channel TASK-1, a voltage-independent K + conductance, so as to maintain normal neuronal behaviour (Brickley SG et al, 2001418 ). Importance for membrane excitability of an GABAB receptor-activated inward-rectifying potassium current, sensitive to pertussis toxin and barium (Slesinger PA et al, 1997419 ). Cerebellar granule cells from young rats (postnatal days 1-9) possess voltage-activated inward Na+ current as well as two types of K+ current, IA and IK (Cull-Candy SG et al, 1989430 ). Single-channel and whole-cell recording identified three types of current: a transient inward sodium current and a transient and a sustained outward potassium current (Jalonen T et al, 1990429 ).
Cerebellum interneuron granule cellSomaI A.Cerebellar granule cells from young rats (postnatal days 1-9) possess voltage-activated inward Na+ current as well as two types of K+ current, IA and IK (Cull-Candy SG et al, 1989430 ). Single-channel and whole-cell recording identified three types of current: a transient inward sodium current and a transient and a sustained outward potassium current (Jalonen T et al, 1990429 ) Presence of Subthreshold-operating transient (A-type) K(+) currents (I(SA)s), as indicated by an accesspry subunit that accelerates the kinetics of this current (Nadal MS et al, 2001428 ).
Cerebellum interneuron granule cellSomaI Na,t.Cerebellar granule cells from young rats (postnatal days 1-9) possess voltage-activated inward Na+ current as well as two types of K+ current, IA and IK (Cull-Candy SG et al, 1989430 ). Single-channel and whole-cell recording identified three types of current: a transient inward sodium current and a transient and a sustained outward potassium current (Jalonen T et al, 1990429 )

References
418. Brickley SG, Revilla V, Cull-Candy SG, Wisden W and Farrant M. (2001) Adaptive regulation of neuronal excitability by a voltage-independent potassium conductance. Nature 409:88-92.
419. Slesinger PA, Stoffel M, Jan YN and Jan LY. (1997) Defective gamma-aminobutyric acid type B receptor-activated inwardly rectifying K+ currents in cerebellar granule cells isolated from weaver and Girk2 null mutant mice. Proc Natl Acad Sci U S A 94:12210-7.
430. Cull-Candy SG, Marshall CG and Ogden D. (1989) Voltage-activated membrane currents in rat cerebellar granule neurones. J Physiol 414:179-99.
429. Jalonen T, Johansson S, Holopainen I, Oja SS and Arhem P. (1990) Single-channel and whole-cell currents in rat cerebellar granule cells. Brain Res 535:33-8.
428. Nadal MS, Amarillo Y, Vega-Saenz de Miera E and Rudy B. (2001) Evidence for the presence of a novel Kv4-mediated A-type K(+) channel-modifying factor. J Physiol 537:801-9.
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